Interactions between Phosphorus Enrichment and Nitrification Accelerate Relative Nitrogen Deficiency during Cyanobacterial Blooms in a Large Shallow Eutrophic Lake

Zhou, Zijun; Liu, Yuqian; Wang, Siyang; Xiao, Jiangjian; Cao, Xiuyun; Zhou, Yiyong; Song, Changchun

doi:10.1021/acs.est.2c07599

Cited by 11 publications

(3 citation statements)

References 64 publications

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“…Conversely, none of the other genera displayed a pattern comparable to that of Microcystis. Comparison of these findings with those of other studies confirms that Microcystis is the predominant bloom-forming genus in Lake Chaohu. , …”

Section: Resultssupporting

confidence: 79%

“…Comparison of these findings with those of other studies confirms that Microcystis is the predominant bloom-forming genus in Lake Chaohu. 57 , 58 …”

Section: Resultsmentioning

confidence: 99%

“…Comparison of these findings with those of other studies confirms that Microcystis is the predominant bloomforming genus in Lake Chaohu. 57,58 Another remarkable observation in the CyanoStrainChip results was the variability of abundance change among strains within the same genus between different severity levels of blooms. Despite the overall trend of Microcystis being an increase, certain strains displayed a steady tendency.…”

Section: Specificity Evaluation Via Mock Communitiesmentioning

confidence: 99%

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CyanoStrainChip: A Novel DNA Microarray Tool for High-Throughput Detection of Environmental Cyanobacteria at the Strain Level

Shu,

Zhao,

Jia

et al. 2024

Environ. Sci. Technol.

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Detecting cyanobacteria in environments is an important concern due to their crucial roles in ecosystems, and they can form blooms with the potential to harm humans and nonhuman entities. However, the most widely used methods for high-throughput detection of environmental cyanobacteria, such as 16S rRNA sequencing, typically provide above-species-level resolution, thereby disregarding intraspecific variation. To address this, we developed a novel DNA microarray tool, termed the CyanoStrainChip, that enables strain-level comprehensive profiling of environmental cyanobacteria. The CyanoStrainChip was designed to target 1277 strains; nearly all major groups of cyanobacteria are included by implementing 43,666 genome-wide, strain-specific probes. It demonstrated strong specificity by in vitro mock community experiments. The high correlation (Pearson's R > 0.97) between probe fluorescence intensities and the corresponding DNA amounts (ranging from 1−100 ng) indicated excellent quantitative capability. Consistent cyanobacterial profiles of field samples were observed by both the CyanoStrainChip and next-generation sequencing methods. Furthermore, CyanoStrainChip analysis of surface water samples in Lake Chaohu uncovered a high intraspecific variation of abundance change within the genus Microcystis between different severity levels of cyanobacterial blooms, highlighting two toxic Microcystis strains that are of critical concern for Lake Chaohu harmful blooms suppression. Overall, these results suggest a potential for CyanoStrainChip as a valuable tool for cyanobacterial ecological research and harmful bloom monitoring to supplement existing techniques.

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Section: Resultssupporting

confidence: 79%

“…Comparison of these findings with those of other studies confirms that Microcystis is the predominant bloom-forming genus in Lake Chaohu. 57 , 58 …”

Section: Resultsmentioning

confidence: 99%

Section: Specificity Evaluation Via Mock Communitiesmentioning

confidence: 99%

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